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Minimal Matter

3D Printing Less for More Impact

Minimal Matter explores geometries that maximize structural efficiency with minimal material use. By experimenting with various minimal surfaces and porosities and utilizing 3D printing, the aim to explores these forms to meet diverse architectural needs, offering innovative and adaptable solutions.

Minimal surfaces geometries

Minimal surfaces are a family of geometric forms distinguished by their high surface area-to-volume ratio and inherent cellularity. These unique characteristics offer vast potential for diverse architectural applications. The unique properties of minimal surfaces make them ideal for creating structures that are both lightweight and strong, maximizing material efficiency while maintaining structural integrity. Minimal Matter explores how these surfaces can be manipulated, especially in terms of their porosity and cellular structure, to create adaptable frameworks. By playing with these properties, these geometries can be tailored to specific design needs, that respond dynamically to different environmental and functional demands.

Fabrication and Technology:

Additive manufacturing, or 3D printing, is central to designing and fabricating these minimal surface structures. This technology allows for the creation of intricate forms that are difficult or impossible to achieve with traditional methods.

For prototyping, stone white clay and red earthen terracotta were chosen for their compatibility with 3D printing and potential to create the desired porous structures. These materials, with their varying viscosities, presented both challenges and opportunities, laying the groundwork for future research. Looking ahead, the aim is to expand material exploration by combining 3D printing with sustainable materials, aiming to enhance both structural and aesthetic qualities while contributing to environmental sustainability.

Applications and Impact:

Minimal surfaces offer versatility across a wide range of applications, from large-scale cooling towers to intricate bio-inspired structures. These designs enhance airflow, thermal regulation, and material efficiency, significantly improving building performance and sustainability. For instance, porous facade panels can regulate temperature and air quality, leading to energy savings and increased comfort. Beyond architecture, these geometries contribute to ecological benefits such as biodiversity support, air filtration, and coral reef restoration. They also hold potential in furniture and interior design, particularly with the use of upcycled plastics. This adaptability positions minimal surfaces as key players in addressing climate challenges through innovative and sustainable solutions.

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About Rameshwari Jonnalagedda

Rameshwari Jonnalagedda is a London-based designer and architect whose work bridges the domains of art, technology and sustainability. With a focus on eco-friendly materials and processes, she creates geometric designs centered around the concept of minimal surfaces. In her latest project, Rameshwari transforms these concepts with clay 3D printing into objects, redefining the boundaries of sustainable design through the lens of art.
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